Partial status epilepticus rarely manifests mainly with global aphasia. It usually results in diffusion-weighted imaging (DWI) abnormalities after prolonged seizures. We discuss the magnetic resonance imaging (MRI) findings in a patient with aphasic status epilepticus. MRI showed diffusion restriction four hours after onset of symptoms. We summarize previously reported brain imaging findings in status epilepticus and discuss the purported mechanism behind these changes. Findings in our patient, similar to few others described in the literature, suggest that cortical DWI hyperintensities can occur shortly following aphasic status epilepticus.
In the recently published article that appeared in Cytometry Part A [79A: 814–824, 2011; doi: 10.1002/cyto.a.21106], the part of study related to in vivo monitoring of the animal blood properties during injection of various chemicals (e.g., collagen and dextran), was performed by Ekaterina I. Galanzha at Saratov State University, Russia.
Introduction: Stroke thrombectomy devices and the experience of neurointerventionists have improved significantly over the last few years making targeting distal occlusions such as of the M2 segment of the middle cerebral artery more feasible. We aimed to study the trend in the successful first pass (SFP) of M2 occlusions over time using the data from a contemporary multicenter registry. Methods: We reviewed the data from the Stroke Thrombectomy and Aneurysm Registry (STAR), which included data from 11 thrombectomy-capable stroke centers to identify stroke patients who underwent mechanical thrombectomy of M2 segment occlusion. SFP was defined by achieving modified Thrombolysis in Cerebral Infarction (mTICI) score≥2b with a single thrombectomy device pass. We analyzed the linear trendline of the rate of SFP over time. Then, we used a logistic regression model to assess predictors of SFP of M2 segment occlusion. Results: We included 401 patients who underwent stroke thrombectomy of M2 occlusion; median age was 71 (IQR 60-80), 212 (52.9%) were females, 174 (43.4%) were white, National Institute of Health stroke scale (NIHSS) was 14 (IQR 8-19), Alberta Stroke Program Early CT (ASPECT) score on presentation was 9 (IQR 7-10) and onset wot groin time was 287 (IQR 181-454). SFP was achieved in 118 (29.4%) patients (linear trendline over time is in Figure 1). Presenting after 2014 was an independent predictor of SFP (OR 1.9, 95% CI 1.1-3.2, P=0.019) after controlling for age, sex, NIHSS on presentation, intravenous alteplase (IV-tPA), and onset to groin time. Conclusion: SFP rate of M2 segment occlusion has increased after 2014 likely secondary the improvement in stroke thrombectomy devices and neurointerventionists experience.
Background: Emergent treatment with intravenous thrombolysis and mechanical thrombectomy improved outcomes in patients with acute ischemic stroke. We aim to identify differences in acute stroke treatment trends between strokes occurring in the anterior versus posterior circulation. Methods: The IAC (Initiation of Anticoagulation after Cardioembolic stroke) study represents pooled data registry of 8 comprehensive stroke centers across the United States and included patients with cardioembolic stroke in the setting of AFib. In a post hoc analysis, we identified and separated patients into posterior circulation stroke (PCS) and anterior circulation stroke (ACS) groups based on imaging. Patients without infarct locations or those with multi-circulation infarcts were excluded. We compared baseline characteristics, stroke severity and the treatment trends with alteplase (tPA) and mechanical thrombectomy (MT) in PCS vs ACS using Fisher exact test, t-test and non-parametric tests. We then performed multivariable logistic regression adjusted for baseline differences to determine the associations between PCS and tPA or MT. Results: Of the 2084 patients in IAC cohort, 1589 met inclusion criteria for this study, in which 294 (22.7%) had PCS. Mean age was 76.8 years, 29.3% received tPA and 26.9% had MT. When compared to ACS, patients with PCS were more likely to be men (55.4% vs 45.6%, p=0.003), have diabetes (42.8% vs 29.8, p< 0.001) and lower median NIHSS score on admission (4 vs 8, p<0.001). Patients with PCS were less likely to receive tPA (16.3% vs 32.3%, p<0.001) or MT (10.9% vs 30.6%, p<0.001). Other variables were not significantly different. When adjusted for baseline differences, patients with PCS remained less likely to be treated with tPA (adjusted OR 0.49, 95%CI 0.35-0.70, p<0.001) or MT (adjusted OR 0.38, 95%CI 0.25-0.58, p<0.001). Conclusion: Posterior circulation strokes are half as likely to receive thrombolytic therapy and almost a third as likely to have thrombectomy, even after adjusting for baseline stroke severity scores. This is possibly due to difficulty in timely identification and diagnostic delays. There is need for better tools incorporating posterior circulation stroke signs and symptoms to allow for early detection and treatment.
Elevated systolic blood pressure (SBP) after successful revascularization (SR) via endovascular therapy (EVT) is a known predictor of poor outcome. However, the optimal SBP goal following EVT is still unknown. Our objective was to compare functional and safety outcomes between different SBP goals after EVT with SR.This international multicenter study included 8 comprehensive stroke centers and patients with anterior circulation large vessel occlusion who were treated with EVT and achieved SR. SR was defined as modified thrombolysis in cerebral ischemia 2b to 3. Patients were divided into 3 groups based on SBP goal in the first 24 hours after EVT. Inverse probability of treatment weighting (IPTW) propensity analysis was used to assess the effect of different SBP goals on clinical outcomes.A total of 1,019 patients were included. On IPTW analysis, the SBP goal of <140mmHg was associated with a higher likelihood of good functional outcome and lower odds of hemicraniectomy compared to SBP goal of <180mmHg. Similarly, SBP goal of <160mmHg was associated with lower odds of mortality compared to SBP goal of <180mmHg. In subgroup analysis including only patients with pre-EVT SBP of ≥140mmHg, an SBP of <140mmHg was associated with a higher likelihood of good functional outcome, lower odds of symptomatic intracranial hemorrhage, and lower odds of requirement for hemicraniectomy compared to SBP goal of <180mmHg.SBP goals of <140 and < 160mmHg following SR with EVT appear to be associated with better clinical outcomes than SBP of <180mmHg. ANN NEUROL 2020;87:830-839.
A 51-year-old woman with a history of hypertension and smoking presented with sudden onset of confabulation, delusions, and blunted affect. She was oriented to time, place, and person with intact language, strength coordination, and sensation. Gait was slow and wide-based. Serum and CSF yielded no abnormalities. Brain MRI showed bilateral caudate infarcts (figure 1). Cerebral angiography did not provide evidence of dissection or stenosis of the internal carotid artery or major atherosclerosis intracranially or involving the aortic arch. However, it showed an embolus in the right A1, with congenital absence of the left A1 segment; there was a thrombus at the origin of the right internal carotid artery (figure 2). No source of thromboembolism was identified on transthoracic echocardiography. Infarction spared the more distal cortical branches of anterior cerebral artery territories because these benefited from a retrograde filling through middle cerebral artery and posterior cerebral artery pial collaterals, more developed on the left. This congenital vascular variant, one that clinicians should be cognizant of, leads to the bilateral nature of the infarcts.1,2
Mechanical Thrombectomy (MT) is the standard of care for patients presenting with emergent large vessel occlusion (ELVO) with salvageable tissue. A subgroup of ELVO is refractory to reperfusion due to underlying intracranial atherosclerosis (ICAS), often requiring rescue therapy with balloon angioplasty, stenting or both. Whether such rescue therapy is safe and effective remains to be established. The purpose of this study is to investigate the safety, efficacy, and long-term outcomes of MT for ELVO related ICAS.
Methods
We queried the databases of 11 thrombectomy-capable centers in the US and Europe included in STAR (Stroke Thrombectomy and Aneurysm Registry). In this analysis, we included patients who underwent rescue therapy (balloon angioplasty and/or stenting) in the setting of ELVO due to underlying ICAS. A matched sample was produced by matching on the variables of age, admission NIHSS, and location of the occlusion.
Results
Out of 2827 thrombectomy patients included in STAR at the time of this analysis, 190 patients required rescue therapy for ELVO with underlying ICAS. Balloon angioplasty was performed on 116 patients, and 113 patients had intracranial stenting. On multivariate analysis, after controlling for age, sex, race, hypertension, diabetes, prior stroke, NIHSS on admission and location of occlusion; compared to angioplasty alone, or stenting alone, combination therapy with angioplasty and stenting was associated with higher odds of favorable long-term functional outcome (mRS 0–2) (OR 4.404, 95% CI 1.318–9.712; P=0.021).in the matched analysis, 161 rescue therapy patients matched to a similar number of controls. There was no difference in age, race, sex, rate of IV tPA administration, ASPECTS score, or onset to groin time. Successful first attempt rate was lower (52% vs. 22%, p=0.001) and procedural time was longer in the rescue therapy group (47 min vs. 31 min, p≤0.001). There was no difference in symptomatic intracranial hemorrhage (7.5% vs. 5.6%, p=0.49), or favorable long term functional outcome (modified Rankin scale 0–2) (42.2% vs. 50.9%, p=0.118) between patients in the rescue therapy and control groups.
Conclusion
In patients with ELVO with underlying ICAS requiring rescue therapy, despite longer procedural time and lower rate of first pass revascularization, rescue therapy appears to be safe with similar rate of favorable long-term functional outcomes compared to patients with large vessel occlusion from embolic source.
Disclosures
S. Al Kasab: None. E. Almallouhi: None. I. Maier: None. A. Arthur: None. J. Kim: None. R. De Leacy: None. A. Rai: None. S. Keyrouz: None. K. Fargen: None. T. Dumont: None. P. Kan: None. R. Starke: None. A. Spiotta: None.
Abstract Background Up to 20% of patients with cerebellar infarcts will develop malignant edema and deteriorate clinically. Radiologic measures, such as initial infarct size, aid in identifying individuals at risk. Studies of anterior circulation stroke suggest that mapping early edema formation improves the ability to predict deterioration; however, the kinetics of edema in the posterior fossa have not been well characterized. We hypothesized that faster edema growth within the first hours after acute cerebellar stroke would be an indicator for individuals requiring surgical intervention and those with worse neurological outcomes. Methods Consecutive patients admitted to the neurological intensive care unit with acute cerebellar infarction were retrospectively identified. Hypodense regions of infarct and associated edema, “infarct–edema”, were delineated by using ABC/2 for all computed tomography (CT) scans up to 14 days from last known well. To examine how rate of infarct–edema growth varied across clinical variables and surgical intervention status, nonlinear and linear mixed-effect models were performed over 2 weeks and 2 days, respectively. In patients with at least two CT scans, multivariable logistic regression examined clinical and radiological predictors of surgical intervention (defined as extraventricular drainage and/or posterior fossa decompression) and poor clinical outcome (discharge to skilled nursing facility, long-term acute care facility, hospice, or morgue). Results Of 150 patients with acute cerebellar infarction, 38 (25%) received surgical intervention and 45 (30%) had poor clinical outcome. Age, admission National Institutes of Health Stroke Scale (NIHSS) score, and baseline infarct–edema volume did not differ, but bilateral/multiple vascular territory involvement was more frequent (87% vs. 50%, p < 0.001) in the surgical group than that in the medical intervention group. On 410 serial CTs, infarct–edema volume progressed rapidly over the first 2 days, followed by a subsequent plateau. Of 112 patients who presented within two days, infarct–edema growth rate was greater in the surgical group (20.1 ml/day vs. 8.01 ml/day, p = 0.002). Of 67 patients with at least two scans, after adjusting for baseline infarct–edema volume, vascular territory, and NIHSS, infarct–edema growth rate over the first 2 days (odds ratio 2.55; 95% confidence interval 1.40–4.65) was an independent, and the strongest, predictor of surgical intervention. Further, early infarct–edema growth rate predicted poor clinical outcome (odds ratio 2.20; 95% confidence interval 1.30–3.71), independent of baseline infarct–edema volume, brainstem infarct, and NIHSS. Conclusions Early infarct–edema growth rate, measured via ABC/2, is a promising biomarker for identifying the need for surgical intervention in patients with acute cerebellar infarction. Additionally, it may be used to facilitate discussions regarding patient prognosis.
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